// $Id$
/* --------------------------------------------------------------------------
CppAD: C++ Algorithmic Differentiation: Copyright (C) 2003-16 Bradley M. Bell

CppAD is distributed under multiple licenses. This distribution is under
the terms of the
                    Eclipse Public License Version 1.0.

A copy of this license is included in the COPYING file of this distribution.
Please visit http://www.coin-or.org/CppAD/ for information on other licenses.
-------------------------------------------------------------------------- */
/*
$begin ipopt_ode_speed.cpp$$

$section Speed Test for Both Simple and Fast Representations$$

$code
$srcfile%cppad_ipopt/speed/ode_speed.cpp%0%// BEGIN C++%// END C++%1%$$
$$

$end
*/

// BEGIN C++
# include "../example/ode_run.hpp"
# include "../example/ode_simple.hpp"
# include "../example/ode_fast.hpp"
# include <cassert>
# include <cstring>

# if CPPAD_HAS_GETTIMEOFDAY & CPPAD_NO_MICROSOFT
# include <sys/time.h>
# else
# include <ctime>
# endif

namespace {
	double current_second(void)
	{
# if CPPAD_HAS_GETTIMEOFDAY & CPPAD_NOT_MICOROSOFT
		struct timeval value;
		gettimeofday(&value, 0);
		return double(value.tv_sec) + double(value.tv_usec) * 1e-6;
# else
		return (double) clock() / (double) CLOCKS_PER_SEC;
# endif
	}
}

double ode_speed(const char* name, size_t& count)
{
	// determine simple and retape flags
	bool simple = true, retape = true;
	if( std::strcmp(name, "simple_retape_no") == 0 )
	{	simple = true; retape = false; }
	else if( std::strcmp(name, "simple_retape_yes") == 0 )
	{	simple = true; retape = true; }
	else if( std::strcmp(name, "fast_retape_no") == 0 )
	{	simple = false; retape = false; }
	else if( std::strcmp(name, "fast_retape_yes") == 0 )
	{	simple = false; retape = true; }
	else	assert(false);

	size_t i;
        double s0, s1;
	size_t  c0, c1;

	// solution vector
	NumberVector x;

	// number of time grid intervals between measurement values
	SizeVector N(Nz + 1);
	N[0] = 0;
	for(i = 1; i <= Nz; i++)
	{	N[i] = 10;
		// n   += N[i] * Ny;
	}
	// n += Na;

	s0              = current_second();
	c0              = count_eval_r();
	if( simple )
		ipopt_ode_case<FG_simple>(retape, N, x);
	else	ipopt_ode_case<FG_fast>(retape, N, x);
	s1              = current_second();
	c1              = count_eval_r();
	count           = c1 - c0 - 1;
	return s1 - s0;
}
// END C++
